CN204176954U - With the vortex tube high-efficiency refrigerating system of water cooling plant - Google Patents
With the vortex tube high-efficiency refrigerating system of water cooling plant Download PDFInfo
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- CN204176954U CN204176954U CN201420599494.5U CN201420599494U CN204176954U CN 204176954 U CN204176954 U CN 204176954U CN 201420599494 U CN201420599494 U CN 201420599494U CN 204176954 U CN204176954 U CN 204176954U
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- vortex tube
- efferent duct
- duct portion
- hot gas
- water
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Abstract
The utility model provides a kind of vortex tube high-efficiency refrigerating system relating to the band water cooling plant of vortex tube technical field, comprise: vortex tube, the body of described vortex tube is provided with compressed air input port, the cold air efferent duct portion that the body of described vortex tube comprises hot gas efferent duct portion and is communicated with described hot gas efferent duct portion, the outer cover in described hot gas efferent duct portion is provided with water jacket, forms cooling water cavity between described water jacket and described hot gas efferent duct portion; Described water jacket is provided with the water inlet and delivery port that are communicated with described cooling water cavity.The utility model improves the radiating efficiency of vortex tube, the temperature in hot gas efferent duct portion is reduced as early as possible, substantially increases the refrigerating efficiency of vortex tube.
Description
Technical field
The utility model relates to vortex tube technical field, particularly relates to a kind of vortex tube high-efficiency refrigerating system with water cooling plant.
Background technology
Vortex tube is a kind of device compressed air being formed cold and hot two strands of air-flows by air-flow vortex motion, generally mainly be used as Local cooling, while making Local cooling with cold air, hot gas is directly discharged to atmospheric environment greatly, hot gas has not only been wasted, and hot gas makes the temperature of surrounding environment raise.
In usual work, the hot gas efferent duct portion heat of vortex tube distributes very slow, causes hot gas efferent duct portion temperature very high, even can scald the skin of staff, the hot gas efferent duct portion being in the condition of high temperature produces negative interaction to the refrigeration of vortex tube, has a strong impact on the refrigerating efficiency of vortex tube.
How to design a kind of radiating efficiency that effectively can improve vortex tube, the vortex tube high-efficiency refrigerating system of the band water cooling plant that the temperature in hot gas efferent duct portion is reduced as early as possible is the problem that those skilled in the art need to solve.
Utility model content
The shortcoming of prior art in view of the above, the technical problem that the utility model solves is the radiating efficiency providing a kind of effective raising vortex tube, the vortex tube high-efficiency refrigerating system of the band water cooling plant that the temperature in hot gas efferent duct portion is reduced as early as possible.
For achieving the above object and other relevant objects, the utility model provides a kind of vortex tube high-efficiency refrigerating system with water cooling plant, comprise: vortex tube, the body of described vortex tube is provided with compressed air input port, the cold air efferent duct portion that the body of described vortex tube comprises hot gas efferent duct portion and is communicated with described hot gas efferent duct portion, the outer cover in described hot gas efferent duct portion is provided with water jacket, forms cooling water cavity between described water jacket and described hot gas efferent duct portion; Described water jacket is provided with the water inlet and delivery port that are communicated with described cooling water cavity.
Preferably, the vortex tube high-efficiency refrigerating system of band water cooling plant also comprises tank, and described water inlet is connected with described tank by water inlet pipe, and described water inlet pipe is connected with suction pump; Described delivery port is communicated with described tank by outlet pipe.
Further, described water inlet is arranged at the top of described water jacket, and described delivery port is arranged at the bottom of described water jacket.
Preferably, the output in described hot gas efferent duct portion connects a flow control valve.
Preferably, the outer wall in described hot gas efferent duct portion is provided with spiral radiator, and described spiral radiator is arranged in described cooling water cavity.
Further, the outward flange of described spiral radiator is connected with the inwall of described water jacket, thus the region between described spiral radiator and described water jacket forms spirality channel.
Further, described water inlet and delivery port lay respectively at the two ends of described spirality channel.
As mentioned above, the vortex tube high-efficiency refrigerating system of band water cooling plant of the present utility model, has following beneficial effect:
(1) the vortex tube high-efficiency refrigerating system of band water cooling plant of the present utility model, cooling water enters in cooling water cavity from the water inlet water jacket, after cooling water absorbs the partial heat in hot gas efferent duct portion, discharged from cooling water cavity by the delivery port on water jacket, the partial heat in hot gas efferent duct portion is distributed by cooling water, then the temperature in hot gas efferent duct portion reduces.
(2) water inlet pipe of the vortex tube high-efficiency refrigerating system of band water cooling plant of the present utility model is all communicated with tank with outlet pipe, this structure makes the cooling water absorbing heat discharge in screw clamp, after mixing with the cooling water not absorbing heat, be transported in cooling water cavity, cooling water forms circulation, and the utility model persistent loop is dispelled the heat; Due to the utility model in the course of the work, cooling water circulation uses the temperature reducing hot gas efferent duct portion, the water temperature of cooling water rises less simultaneously, make the stability that whole radiation processes keeps good, and the temperature near room temperature of water jacket can be made, water jacket can not scald the skin of staff, does not almost affect surrounding environment;
(3) the utility model improves the radiating efficiency of vortex tube, and the temperature in hot gas efferent duct portion is reduced as early as possible, reduces hot gas efferent duct portion and produces negative interaction to the refrigeration of vortex tube, substantially increase the refrigerating efficiency of vortex tube.
Accompanying drawing explanation
Fig. 1 is shown as the structural representation of the vortex tube high-efficiency refrigerating system of band water cooling plant of the present utility model.
Drawing reference numeral explanation
100 vortex tubes
110 compressed air input ports
120 hot gas efferent duct portions
130 cold air efferent duct portions
200 spiral radiators
300 water jackets
310 water inlets
311 water inlet pipes
320 delivery ports
321 outlet pipes
400 spirality channels
500 tanks
510 suction pumps
600 flow control valves
710 hot gas mouths
720 cold air mouths
730 vortex generators
800 cooling water cavities
Detailed description of the invention
By particular specific embodiment, embodiment of the present utility model is described below, person skilled in the art scholar the content disclosed by this description can understand other advantages of the present utility model and effect easily.
Refer to accompanying drawing.Notice, structure, ratio, size etc. that this description institute accompanying drawings illustrates, content all only in order to coordinate description to disclose, understand for person skilled in the art scholar and read, and be not used to limit the enforceable qualifications of the utility model, therefore the not technical essential meaning of tool, the adjustment of the modification of any structure, the change of proportionate relationship or size, do not affecting under effect that the utility model can produce and the object that can reach, still all should drop on technology contents that the utility model discloses and obtain in the scope that can contain.Simultaneously, quote in this description as " on ", D score, "left", "right", " centre " and " one " etc. term, also only for ease of understanding of describing, and be not used to limit the enforceable scope of the utility model, the change of its relativeness or adjustment, under changing technology contents without essence, when being also considered as the enforceable category of the utility model.
As shown in Figure 1, the vortex tube high-efficiency refrigerating system of the band water cooling plant of the present embodiment comprises: vortex tube 100, the body of vortex tube 100 is provided with compressed air input port 110, the cold air efferent duct portion 130 that the body of vortex tube 100 comprises hot gas efferent duct portion 120 and is communicated with hot gas efferent duct portion 120, the outer cover in hot gas efferent duct portion 120 is provided with water jacket 300, forms cooling water cavity 800 between water jacket 300 and hot gas efferent duct portion 120; Water jacket 300 is provided with the water inlet 310 and delivery port 320 that are communicated with cooling water cavity 800.
During utility model works, cooling water enters in cooling water cavity 800 from the water inlet 310 water jacket 300, after cooling water absorbs the partial heat in hot gas efferent duct portion 120, discharged from cooling water cavity 800 by the delivery port 320 on water jacket 300, the partial heat in hot gas efferent duct portion 120 is distributed by cooling water, then the temperature in hot gas efferent duct portion 120 reduces.
Vortex tube high-efficiency refrigerating system with water cooling plant also comprises tank 500, and water inlet 310 is connected with tank 500 by water inlet pipe 311, water inlet pipe 311 is connected with suction pump 510; Delivery port 320 is communicated with tank 500 by outlet pipe 321.
Cooling water is placed in tank 500, water inlet pipe 311 is all communicated with tank 500 with outlet pipe 321, this structure makes the cooling water absorbing heat discharge in screw clamp 500, after mixing with the cooling water not absorbing heat, be transported in cooling water cavity 800, cooling water forms circulation, and the utility model persistent loop is dispelled the heat; Due to the utility model in the course of the work, cooling water circulation uses the temperature reducing hot gas efferent duct portion 120, the water temperature of cooling water rises less simultaneously, make the stability that whole radiation processes keeps good, and the temperature near room temperature of water jacket 300 can be made, water jacket 300 can not scald the skin of staff, does not almost affect surrounding environment.
Water inlet 310 is arranged at the top of water jacket 300, and delivery port 320 is arranged at the bottom of water jacket 300.This structure can make cooling water under the effect of suction pump 510, enters in water jacket 300 rapidly, flows out rapidly from water jacket 300;
The output in hot gas efferent duct portion 120 connects a flow control valve 600; The end of the output in hot gas efferent duct portion 120 is provided with hot gas mouth 710, and the end of the output in cold air efferent duct portion 130 is provided with cold air mouth 720, and hot gas efferent duct portion 120 is provided with vortex generator 730 with the connectivity part in cold air efferent duct portion 130.
Compressed air enters the vortex generator 730 of the body of vortex tube 100 from compressed air input port 110 after, form air-flow, flow rotation the output in the hot gas efferent duct portion 120 flowing to vortex tube 100, part air-flow is by flow control valve 600, flow out from hot gas mouth 710, after remaining air-flow is stopped, reversely rotate in the inner ring of the air-flow formed, and flow to the output in the cold air efferent duct portion 130 of vortex tube 100, flow out from cold air mouth 720; In the process, two bursts of air-flow generation heat exchanges, inner ring air-flow becomes terribly cold, and form cold air, cold air flows out from cold air mouth 720; Outer shroud air-flow becomes awfully hot, and form hot gas, hot gas flows out from hot gas mouth 710.Adjust flux control valve 600, can make the flow of hot gas change, thus the flow of regulation output cold air and temperature.
The outer wall in hot gas efferent duct portion 120 is provided with spiral radiator 200, and spiral radiator 200 is arranged in cooling water cavity 800.Partial heat in hot gas efferent duct portion 120 is distributed by spiral radiator 200, and spiral radiator 200 increases area of dissipation.
The outward flange of spiral radiator 200 is connected with the inwall of water jacket 300, thus the region between spiral radiator 200 and water jacket 300 forms spirality channel 400.Cooling water passes in spirality channel 400 by water inlet 310, cooling water flows along spirality channel 400, enable cooling water under flow regime, absorb heat after fully contacting with spiral radiator 200 with hot gas efferent duct portion 120, make the heat absorption efficiency of cooling water high; Cooling water is discharged to the outside of water jacket 300, further increases the radiating efficiency in hot gas efferent duct portion 120 after absorbing heat by delivery port 320.
Water inlet 310 and delivery port 320 lay respectively at the two ends of spirality channel 400.This structure enables cooling water by whole spirality channel 400, cooling water is contacted with whole spirality channel 400, absorbs maximum heats.
Compared with the vortex tube 100 not adopting water cooling plant, when exporting cold air flow and being identical, the cold air temperature of vortex tube high-efficiency refrigerating system of the present utility model is lower, and refrigeration is better; And when cryogenic temperature is identical, vortex tube high-efficiency refrigerating system of the present utility model can export more cold air, more energy-conserving and environment-protective.
The utility model improves the radiating efficiency of vortex tube 100, and the temperature in hot gas efferent duct portion 120 is reduced as early as possible, and the refrigeration reducing the 120 pairs of vortex tubes 100 in hot gas efferent duct portion produces negative interaction, substantially increases the refrigerating efficiency of vortex tube 100.
To sum up, the utility model effectively overcomes various shortcoming of the prior art and tool high industrial utilization.
Above-described embodiment is illustrative principle of the present utility model and effect thereof only, but not for limiting the utility model.Any person skilled in the art scholar all without prejudice under spirit of the present utility model and category, can modify above-described embodiment or changes.Therefore, such as have in art and usually know that the knowledgeable modifies or changes not departing from all equivalences completed under the spirit and technological thought that the utility model discloses, must be contained by claim of the present utility model.
Claims (7)
1. the vortex tube high-efficiency refrigerating system with water cooling plant, comprise: vortex tube (100), the body of described vortex tube (100) is provided with compressed air input port (110), the cold air efferent duct portion (130) that the body of described vortex tube (100) comprises hot gas efferent duct portion (120) and is communicated with described hot gas efferent duct portion (120), it is characterized in that: the outer cover of described hot gas efferent duct portion (120) is provided with water jacket (300), cooling water cavity (800) is formed between described water jacket (300) and described hot gas efferent duct portion (120), described water jacket (300) is provided with the water inlet (310) and delivery port (320) that are communicated with described cooling water cavity (800).
2. the vortex tube high-efficiency refrigerating system of band water cooling plant according to claim 1, it is characterized in that: also comprise tank (500), described water inlet (310) is connected with described tank (500) by water inlet pipe (311), described water inlet pipe (311) is connected with suction pump (510); Described delivery port (320) is communicated with described tank (500) by outlet pipe (321).
3. the vortex tube high-efficiency refrigerating system of band water cooling plant according to claim 2, it is characterized in that: described water inlet (310) is arranged at the top of described water jacket (300), described delivery port (320) is arranged at the bottom of described water jacket (300).
4. the vortex tube high-efficiency refrigerating system of band water cooling plant according to claim 1, is characterized in that: the output of described hot gas efferent duct portion (120) connects a flow control valve (600).
5. the vortex tube high-efficiency refrigerating system of band water cooling plant according to claim 1, it is characterized in that: the outer wall of described hot gas efferent duct portion (120) is provided with spiral radiator (200), and spiral radiator (200) is arranged in described cooling water cavity (800).
6. the vortex tube high-efficiency refrigerating system of band water cooling plant according to claim 5, it is characterized in that: the outward flange of described spiral radiator (200) is connected with the inwall of described water jacket (300), thus the region between described spiral radiator (200) and described water jacket (300) forms spirality channel (400).
7. the vortex tube high-efficiency refrigerating system of band water cooling plant according to claim 6, is characterized in that: described water inlet (310) and delivery port (320) lay respectively at the two ends of described spirality channel (400).
Priority Applications (1)
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CN201420599494.5U CN204176954U (en) | 2014-10-16 | 2014-10-16 | With the vortex tube high-efficiency refrigerating system of water cooling plant |
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CN201420599494.5U CN204176954U (en) | 2014-10-16 | 2014-10-16 | With the vortex tube high-efficiency refrigerating system of water cooling plant |
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CN204176954U true CN204176954U (en) | 2015-02-25 |
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CN201420599494.5U Expired - Fee Related CN204176954U (en) | 2014-10-16 | 2014-10-16 | With the vortex tube high-efficiency refrigerating system of water cooling plant |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108662801A (en) * | 2018-07-26 | 2018-10-16 | 南京纤海纳米科技有限公司 | It is vortexed water cooling refrigeration system |
CN110527953A (en) * | 2019-10-12 | 2019-12-03 | 赫得纳米科技重庆有限公司 | A kind of improved vacuum coating equipment cavity cooling device of structure |
WO2020024258A1 (en) * | 2018-08-03 | 2020-02-06 | 深圳深蓝精机有限公司 | Refrigeration system |
-
2014
- 2014-10-16 CN CN201420599494.5U patent/CN204176954U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108662801A (en) * | 2018-07-26 | 2018-10-16 | 南京纤海纳米科技有限公司 | It is vortexed water cooling refrigeration system |
WO2020024258A1 (en) * | 2018-08-03 | 2020-02-06 | 深圳深蓝精机有限公司 | Refrigeration system |
CN110527953A (en) * | 2019-10-12 | 2019-12-03 | 赫得纳米科技重庆有限公司 | A kind of improved vacuum coating equipment cavity cooling device of structure |
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Granted publication date: 20150225 Termination date: 20211016 |